Ophthalmological instrument



Feb. 6, 1934. C, L. HUNSlCKER 1,945,940

OPHTHLMOLOGICAL INSTRUMENT Filed Jan. 4, 1952 8 Sheets-Sheet l A on. ooo bw V M M. ,U u, N\\ 4 NQ J Q W MQ Feb. 6, 1934. Q HUNSICKER 1,945,940

OPHTHALMOLOGICAL INSTRUMENT Filed Jan. 4, 1932 8 Sheets-Sheet 2 FIE E Feb- 5, 1934- c. L.. HUNlcKl-:R

OPHTHALMOLOGICAL INSTRUMENT Filed Jan. 4, 1932 8 Sheets-Sheet 3 To Chan INVENTOR. C75/de Z HL/rLS/'C/ef" A TTORN Feb. 6, 1934. Q L HUNslCKER Y 1,945,940

OPHTHALMOLOGICAL INSTRUMENT Filed Jan. 4, 1932 8 Sheets-Sheet 4 I N V EN TOR. C/y de .//c//vs/'c ker ATTORNEYS.

Feb. 6, 1934. C, L HUNSICKER 1,945,940

OPHTHALMOLOGI CAL INSTRUMENT Filed Jan. 4, 1952 8 Sheets-Sheet 5 Vl Sl il ZI INVENTOR.' 4 C/yp/e L. Hur/s/'cker /I TTORNE YS.

Feb. 6, 1934.` Q L* HUNSICKER 1,945,940

OPHTHALMOLOGI CAL INSTRUMENT Filed Jan. 4, 1952 8 Sheets-Sheet 6 INVENTOR. C/yde L. #Uns/cker* Muff@ A TTORNE YS.

Feb 6, 1934. c. 1 HuNslcKER 1,945,940

OPHTHALMOLOGICAL INSTRUMENT Filed Jan. 4, 1932y 8 sheets-Sheet 'r INVENTOR.

ATTORNEYS.

Feb. 6, 1934.

c. L. HuNslcKER 1,945,940

OPHTHALMOLOGICAL INSTRUMENT Filed Jan. 4, 1952 8 Sheets-Sheet 8 E?. 51? @ya I if @g 5&5 i

@ya @ya ELE- @f5 @26 @ya @ya f6 n? ff A TTORNE YS.

Patented Feb. 6, 1934 pagina,

PAT-enr oFF-ICE;

oPnrHALMoLoGrcAL INSTRUMENT Clyde L. Hvunsickerr, San Francisco, Calif., a ssignor of one-half to Aaron S.Green and Louis D. Green, both of San Francisco, Calif.

Application January 4, 1932. SerialV No. 584,592

9 Claims. (Cl. 88-22) My invention relates to ophthalmological instruments of the type known as optometers, whichr are used primarily by oculists for determining lens prescriptions for defective eyesight.

It relates more particularly to that class of optometers in which a plurality of lenses are movably mounted Within a casing, these lenses being adapted to be adjusted in diiferent combinations to obtain diiferent refractive powers.

lfwo systems of lenses can be employed in the optometer, one system containing cylindrical lenses and the other system containing spherical lenses. In my Patent No. 1,804,691, granted May 12, 1931, -an optometer is disclosed in which the spherical system of lenses comprises a group of Vmajor lenses and a group of minor lenses and means is provided for. successively superimposing any one of the lenses of one group on any one of the lenses in the other group, whereby the refractive power can be increased gradually from a minimum to a maximum, the minimum value being the most negative refractive power and the maximum value being the most positive refractive power attainable with the lenses provided. The range of refractive powers is sufliciently great and the increment between successive powers is suiciently small to cover practically all cases of defective eyesight encountered in ordinary practice without superimposing more than two spherical lenses. For those extremely rare 4cases which require a correction outside of the range thus provided, a third lens can be superimposed on any one ofthe combinations afforded by the system to extend the range accordingly. In the patent referred to, a series of numbers associated with the group of minor lenses indicates the value of the minor lens and another series of numbers associated with the major lenses indicates the value of the major lens entering into the adjusted combination and by calculation, the

refractive power of the combination can be determined.

f t is one object of the present invention to provide means in a device of the character described, for indicating automatically the calculated value of one of the optical characteristics of any of the possible combinations of superposed lenses, thereby eliminating possible errors which might occur when the calculations are made mentally. For example, when the principles of the invention are applied to'a spherical lens system such as that disclosed in my prior patent above referred to, the refractive power o f each combination of lenses can be automatically' indicated in diopters, rather than indicating separately the respective refractive powers of each of the individual lenses entering into the combination.

It is another object of my invention to provide quick clearing means in a device of the character described, in conjunction with automatic calculating means, whereby the major lenses can'be superpos'edin succession on any one of the minor lenses Without moving the minor lens chosen and "Without jeopardizing the accuracy of the automatic calculating means.

Still another object is 'to provide automatic calculating means of the character described which is applicable to lens systems including both positive and negative lenses.

Still another object is to provide automatic calculating means of the 'character described, which is dependent only upon the relative'po'sitions of the lens carrying members without resorting to the interposition of any other mechanism, thereby rendering the calculating means practically infallible.

Still another Objectis to provide means for supporting a cylindrical lens system in the same housing with a 'spherical lens system and in 'cooperative relationship therewith, in conjunction with automaticV calculating means oi' the foregoing character associated with the spherical l'. system, in such a manner that the cylindrical lens system does not interfere with the reading as determined bythe calculating means;v

Still another object is to provide means 'of the above mentioned character Ywhich is simple in construction and economical in manufactme.

These and other objects' and advantages are attained in the embodiment of my invention illustrated in the accompanying drawings, in which:

Fig. 1 is an elevational view of an optometer embodying the features of the invention.

Fig. 2 is a side elevational View of a certain gciliary-dynemometer adaptedto vbe assembled in operative relationship with the optometer shown inFig.l."' i

Fig. 3 is a cross sectional view taken along the planes indicated by the dot and dash lines 3 3 of Fig. l and of Fig. 6.

Fig. 4 is a view showing in detail a novel mounting for a Stevens phoro'meter which is adapted' to be used in conjunction with` the optometer.

Fig. 5 is a view showing in detailA the mounting of certain other special lenses.

Fig. 6 is an elevational View on an enlarged scale of one-half of the optometer, the other half being substantially symmetrical.

Fig. 7 is a cross sectional View taken along the plane indicated by the line 7-7 of Fig. 3 with the cylindrical lens carring disc removed.

Fig. 8 is a cross sectional view taken along the same plane as Fig. 7 with the cylindrical lens carrying disc in position.

Fig. 9 is a view of the under side oi the cylindrical lens carrying disc as viewed in Fig.r 3.

Fig. 10 is a view of one side of the minor spherical lens carrying disc looking in the direction of the arrows ILO-l0 of Fig. 3.

Fig. l1 is a view oi one side of the major spherical lens carrying disc looking in the direction ci the arrows ll-ll of Fig. 3.

Fig. 12 is a View of the obverse side of the major spherical lens carrying disc looking in the direction of the arrows 12-12 of Fig. 3.

Fig. 13 is a View oi the under side ci/the rear plate of the lens housing as viewed in Fig. 3 and looking in the direction of the arrows 13-13 of this dgure, part of the structure being broken away to show certain intermittent gearing employed between the major and minor spherical lens carrying discs.

Fig. le is an elevational view of the rear plate of the lens housing.

Fig. 15 is a cross sectional View illustrating in detail the intermittent motion transmitting mechanism interposed bet'wen the minor and major spherical lens carrying discs.

Fig. 16 is a Vdetail oi the actuating knob of the drive mechanism shown in Fig. 15.

' Figs. 17a to l7c, 18a to l8r, and 19a 'to 19d illustrate several readings as they are indicated by 'the calculating means of the instrument.

In its preferred form, the ophthalmological instrument of this invention comprises a spherical lens system and a cylindrical lens system mounted in a housing common to both. The cylindrical lens system comprises a series ci' cylindrical lenses having dierent'optical characteristics and means is provided for moving any one or" the cylindrical lenses into registration with a sight opening. Means can also be provided for rotating the particular cylindrical lens which is in registration about its own center.

The spherical lens system comprises a member carrying a series of major lenses of positive and negative refractive powers, these lenses being graded in strength uniformly from the most negative lens to the most positive lens, the increment between lenses of successive strength values being four diopters in the embodiment illustrated. A member carrying a series or minor spherical lenses is also included in the spherical lens system, these minor lenses being graded in strength from zero to 3.75 diopeters in increments of .25 diopters in the embodiment for illustration. Means is provided for superposing any one of the major lenses on any one of the minor lenses in registry with the sight opening. Each series of spherical lenses is preferably mounted on a rotatable disc and intermittent drive mechanism interposed between the 1 spherical lens carrying discs serves to move the major lens carrying disc one step after each complete revolution of the minor lens carrying disc, whereby the entire range of combinations attainable can be placed in successive registry in the sight opening from the most negative combination to the most positive combination in steps of .25 diopters throughout the entire range. Preferably, the intermittent drive mechanism includes clutch mechanism and means is provided for moving the major lenses into successive registry with the sight opening without the necessity of moving the minor lenses. This feature enables quick clearing, since any desired refractive strength can be approached in steps oi' fi diopters rather than in steps of .25 diopters. When the approximate refractive power desired is obtained, nner adjustments can be made in steps'of .25 dioptei's by moving the minor lens carrying disc.

Calculating means is provided for indicating calculated Value of an optical characteristic ci the combination of lenses in the sight opening. In the embodiment illustrated the calculating means comprises a plurality oi apertures in the minor lens carrying disc which are adapted toreveal certain numerals on the major lens carrying disc. An opening in the housing for the lenses permits readings tc be taken. The numerals on the major lens carrying disc are so disposed that only those numerals which will enter into the indication of the calculated value for a particular setting oi the major iens carrying disc will occur within the opening in the lens housing. The apertures in the minor lens carrying-disc select a particular one oi the numerals on the major lens carrying disc in accordance lill@ with the setting or the minor lens carrying disc relative to the major lens 1ying disc. ln the embodiment of the invention illustrated, the integers or the calculated value are disposed on the major lens carrying member and are visible 1435 l/ Ular setting oi the spherical lens system, the cal- 11G culated value oi" the rei active power in dicpters of the combination oi lenses in r gistry with the sight Vopening is indicated by the numbers on both discs registering in the reading opening in the casing.

Referring now to the drawings, and first to Fig. 1, in which a complete instrument is illustrated, a pair oi lens supporting housings l5 and 17 are shown which are adjustably mounted on a support i8. The housings 16` and 17 support a plurality of lenses and are substantially identical or symmetrical in construction throughout, the lenses in one housing being used to test the lett eye of the patient and the lenses in the other being used to test the right eye. A pair or level indicating devices 19 and 2l can be provided and a plurality ci' level adjusting screws, one of is shown at 22, can be employed Jor leveling the instrument in two directions at right angles to each other. The lens housings 16 and 17 are carried by 3 and 24, respectively, and an actuating lrnob 26 serves to actuate a rack and pinion mechanism (not shown) or adjusting the separation between the lens housings. A rack and pinion mechanism suitable for this purpose is shown and described in my -Patent No. lol, above referred to.v By turning the knob 2s in one direction-0r the otloler,v the correct setting for the pupillary distance oi' the patients eyes can be obtained.

In Fig. 6 a view or one oi thel lens housings is shown on an enlarged scale.` A sight opening 27 is provided into which the different lenses in the housings are adapted to be brought into registry. A shutter 28 (Fig. 13) actuated by a knob (Fig. lll) is movable to three distinct positions, iny one of which the sight opening is closed. In another position of the shutter, a relatively large aperture 3l is brought into registry with the sight opening, thereby clearing the passage. in

the third position of the shutter 28, a pin hole 32 is brought into registry which can be used for initially setting the apparatus to accommodate the pupillary distance between the patients eyes.

The cylindrical lens system can be similar to that shown and described in my Patent No. 1,804,691, and this patent is referred to for a detailed description oi this part oi the instrument. Briefly, however, the cylindrical lens system comprises a lens carrying disc 33 which supports a plurality oi cylindrical lenses 34 of different powers, spaced circumierentially around the periphery oi the disc. A gear 36 (Fig. 3) secured concentrically to the disc 33 meshes with a pinion 37 secured to the shaft of an actuating knob 38. By rotating the knob 38, the disc 33 is turned to bring the various lenses thereon into successive registry in the sight opening. A rotatable knob 39 serves to rotate the lens in registry with the sight opening about its own axis without rotating all of the other lenses, as disclosed in the above mentioned patent, and an indicating scale 41 cooperating with a pointer arm 42 provides an indication or" the angular setting of the particular cylindrical lens which is in registry. For indicating the power of the cylindrical lens in registry with the sight opening, an aperture 43 is provided in the housing through which numerals 44 on the gear 36 of the cylindrical lens carrying disc are visible. The numerals are so arranged that when any particular cylindrical lens is positioned in the sight opening, the nurneral corresponding to the refractive power of that lens is in registration with the aperture 43.

The spherical lens systemconiprises a rotatable disc 46 on which is mounted a series of graded spherical lenses 47 of successively increasing refractive powers. The lenses 47 are uniformly spaced circumferentially about the disc 46 and in the embodiment illustrated, there are fifteen of these lenses varying in power from .25 diopters to 3,75 diopters, the increment between the lenses oi successive powers being .25 diopters. An aperture 48 is included in the series and this aperture represents a lens of zero power. The lenses 47 are herein referred to as being minor lenses. By turning the minor lens carrying disc 46 in a counterclockwise direction, as viewed in Fig. 10, the minor lenses are brought one at a time into registry with the sight opening in a regular sequence, each lens surpassing in power by .25 diopters the lens which it replaces, until the lens of 3.75 diopters is reached, after which the cycle is repeated.Y

A second lens carrying disc 49 on which is mounted a series of coarsely graded spherical lenses 5i is also included in the spherical lens system. The disc 49 is mounted for rotation about an axis which is concentric with the axis of rotation of disc 46. The lenses on disc 49 are shown as being eleven in number in the embodiment illustrated, and vary in power from minus 28 diopters to plus 16 diopters, the increment between lenses or ysuccessive powers being 4 diopters. These lenses will be referred to herein as being major lenses to distinguish from the minor lenses on disc 46. An aperture 52 in the major lens carrying disc 49 represents a lens of zero refractive power and this aperture is located in the sequence of major lenses between the lens of plus 4 diopters and the lens of minus 4 diopters.

Intermittent drive mechanism is provided for interconecting the minor lens carrying disc and the major lens carrying disc, whereby for each complete revolution of thev minorlens carrying disc 46 the major lens carrying. disc is moved a distance sufli'cientto bring thenext higher .or next lowerl major. lens linto registry with the sight opening, in accordance with the" direction or" rotation of the minor lens Vcarrying disc. .Thus,

the minor lens carrying disc,46 is secured to a hub53, as by means of screws54, and mounted concentrically upon the hub 53 is a circular plate 56 having a single projecting tooth 5.7 extending from its periphery. The tooth 57 cooperateswith a Geneva gear 58 and for each revolution of the minor lens carrying disc 46 and the plate 56, the tooth 57 serves to turn the Geneva gear 58 one step or one-quarter of a revolution.

As shown most clearly in Fig. 15, the Geneva gear58 is rigidly secured to a sleeve59 journalled in a bushing 61 carried'by one wall of the lens 66 pinned to the sleeve 59 to turn with the Geneva gear 58. Cooperating with the notched disc 66 is a spring biased detent lever 67 which is mounted to turn with the pinion 63. lThe detent lever 67 is pivoted, as at 68, to an actuating knob 69 which is pinned, as at 71, to the shaft 62 of the pinion 63.. The disc 66 has a series of notches 72 cut in its periphery, corresponding in number to the number of teeth on 'the Geneva gear 58, the number being four in the present instance.

A projection 73 on the lever 67 is adapted to enter the notches 72 in the disc 66 and the force exerted by the biasing spring 74 on the lever67 is in such a direction that the projection 73 is resiliently held against the adjacent surface of the disc 66. When the projection 73 is adjacent one of the notches 72, it is caused to enter the notch under the influence of the spring 74. The friction between the projection 73 andthe engaged notch 72 is amply sumcient normally to transmit the motion of the Geneva gear 58 to the pinion 63 and to drive the major lens carrying disc 49 without slipping of theA clutch element. The gear ratio between the pinion 63 and the gear 64 with which it meshes, is such that the major lens carcient to bring the next successive lens to registry with the sight opening when the motion of the Geneva gear 58 in turning one-quarter of a revolution is transmitted to the pinion 63.

The minor lens carrying disc 46 projects slightly beyond the lens housing throughout a substantial portion of the periphery, as shown in Fig. l, and to turn the minor lens carrying disc to bring successive lenses thereon into registry les `125 lrying disc 49 is turned an angular amount suiiv" with the sight opening, the edge of the disc isl knurled and can be grasped by the operator and the disc given the desired amount of angular movement. A series of notches 76 are formed in the periphery of the minor lens carrying disc 46 and a plunger detent77 registers with one of the notches whenever one of the minor lenses is aligned in the sight opening. The disc 56 having the tooth,57 thereon turns with the minor lens carrying disc 46 and the uninterrupted portion of the disc 56 slides past the Geneva gear 58 until the lastlens inthe series of minor lenses is brought into registry. Upon turning the minor lensvcarrying disc 46 to replace the lens of zero power withv the lensof 3.75 diopters or vice versa,

Sie

however, 'the tooth "57 'is carried into engagement` Y with the Geneva gear 58, thereby moving it one step or one-quarter of a revolution. The motion of the Geneva gear 58 is transmitted to the sleeve 59 to the notched disc 66, thence to the detent 67 and knob 69, to the shaft 62 and pinion 63 to the gear 64, thereby causing the gear 64 to be turned by an amount suiiicient to bring the next successive major lens on the disc 49 into registry with the sight opening. All of the minor lenses can then be superposed on the new major lens which thus is brought into registry and at the end of the series of minor lenses the next major 'lens will be automatically moved up and so on until every one of the major lenses has had superposed thereon the entire series of minor lenses.

AThe cycle will be repeated upon continued rotation or" the minor lens carrying disc in its original `direction of rotation.

The lenses on the two discs are preferably so arranged that when the minor lens carrying disc is turned in the direction which causes minor lenses to increase in power, the movement imparted to the major lens carrying disc causes major lenses of increased power to replace those or" lesser power. When'the minor lens carrying disc 'is turned in the opposite direction, however, so

that weaker minor lenses replace the stronger, the motion imparted to the major lens carrying disc is such that weaker major lenses replace the stronger major lenses.

The major lens carrying disc 49 Vcan be turned, however, without rotating the minor lens carrying disc 456, by turning the knob 69. When the knob 69 is rotated, corresponding rotation is irnparted to the pinion 63 and gear 64 of the major lens carrying disc 49 by means of the shaft 62 on which the knob 69 and the pinion 63 are both iixed During this movement, the detent lever 67 is carried around with the lknob 69 but the projection 73 rides over the notches 72 and slips over the peripheral surface of the disc 66 with- ,out turning the disc. The Geneva gear 58 is Vlocked against the rotational movement by the adjacent bearing surface of the disc 56, thereby holding the sleeve 59 and the notched disc 66 stationary during the turning motion of the knob 69. Thus, irrespective of the position in which the minor lens carrying disc may be adjusted, the major lens carrying disc can be moved to bring all of the major lenses into successive alignment with the particular minor lens which may be in registry with the sight opening.

Meansis preferably provided for locking the major lens Vcarrying disc in any one of the adjusted positions, so that the entire series of minor lenses can then be repeatedly superposed on any one of the major lenses. Thus, I have shown the knob 69 as having a series of four notches 78 formed in the edge thereof which are adapted to be engaged by a spring pressed plunger detent 79. The detent 79 is biased in such a direction that it tends to enter one of the notches 78 when the major lens carrying disc 49 is in any position which brings one of the major lenses in registry with the sight opening. A manrally operable lever 81 having a notch or groove 83 therein which acts as a cam surface against a conical shoulder 83 on the detent 79, serves to hold. thedetent in a non-interfering position for one position of the lever 8l and in the other vposition of the lever, such as that shown in Fig.

against th rotation, movement of the Geneva gear 58 by the minor lens carrying disc 46 is not transmitted to the major lens carrying disc 49, because of the locked condition of the knob 69 and the pinion 63. Instead, the notched disc 66 rides under the projection 73 of the detent 67 and only the minor lens carrying disc is turned, while the major lens carrying disc remains stationary. Preferably, the notches 72 in disc 66 are so disposed relative to the projection 73 on lever 67 that the projection engages a notch whenever one of the major lenses is in registry with the sight opening, so that in addition to affording the desired friction in the clutch mechanism, these parts also serve to indicate to the operator when the major lens adjacent the sight opening is in exact alignment therewith, the operator being made aware of this condition by hearing and feeling the projection 73 snap into the cooperating notches.

From the description of the spherical lens system thus far, it will be noticed that the major lens carrying disc and the minor lens carry ing disc can each be moved independently of the other, or that the major lens carrying disc can be moved step by step in response to continued rotation of the minor lens carrying disc. For eX- ample, when the lever 81 is actuated to release the knob 69, turning movement of the minor lens carrying disc will cause the major lens carrying disc to move one step to the next major lens each time the last lens of the minor series is passed through the registering position in either direction. By turning the knob 69 in either direction, any one of the major lenses can be superposed in succession upon the minor lens which happens to be in registry.l When the lever 8l is positioned so that the detent 79 locks the major lens carrying disc, the minor lens carrying disc can be moved in either direction to any desired extent without changing the particular majo-r lens which happens to be in registry. The flexibility of the motion transmitting mechanism also enables both oi the lens carrying discs 46 and 49 to be rotated simultaneously either in the same direction or in opposite directions, and Without any denite relationship between the movement of the two discs. For example, the knob 69 can be turned in either direction to change the` major lenses, while the operato-r is also moving the minor lens carrying disc 46 with his other hand. This flexibility of movement and particularly the feature which enables the major lens to be changed without moving the minor lenses aiiords quick clearing of the instrument, that is, a particular setting of lenses can be changed to any other setting without resorting to the tedious process of passing through all of the possible adjustments which lie intermediate the twol settings. In the embodiment illustrated, any particular setting can be changed to any other possible setting by rotating each of the lens carrying discs less than one complete revolution, thereby reducing the time and labor involved inthis operation to a minimum. However, by rotating the minor lens carrying disc through a suiiioient number of revolutions to bring all of the major lenses into registry one at a time, every one or the possible adjustments in the entire range can be obtained in regular sequence.

I desire to provide the instrument with means for indicating the calculated value of the reiractive power of any combination of spherical lenses which happens to be in registry in the Thus, for every setting of the minor lens carrying Vdiscwhich brings one 0i"v theV minor lenses into registry, there will be two apertures the reading opening, one being inthe upper portion of the'aperture entering into positive reading and the other being in the lower portion and entering into negative reading. Only one oi the apertures will be effective at any one time, however, since the numerals 92 on the major lens carrying disc 49 are so disposed that only one of the numerals 92 will be revealed through one of the apertures 91 in the reading opening at any particular setting of the major lens carrying disc which brings a major lens into registry with the line of sight, The numerals 92 on the major `lens carrying disc 49 represent the integers of the indicated readings and the numerals adjacent the apertures on the minor lens carrying disc 46 represent the decimals of the indicated reading. The calculated value of any setting, therefore, is obtained by reading the nurnbers on both discs together as a single number.V

For example, when the numeral 7 is visible through one oi' the apertures in the minor lens carrying disc and when the numeral is associated with that aperture, as in Fig. 19h, the indicated reading is 7.75 and the lenses in registry with the sight opening have a combined refractive power of 7.75 diopters. Accordingly, the numerals 92 are so arranged on the maior lens carrying disc that whenever one of the niajor lenses yis in registry withv the sight opening, the particular numerals 92 which are brought into the area denned by the reading opening 96 constitute all of Vthe possible integers which will beV round in the calculated value of any combination of lenses which includes that major lens.

YFor example, when the major lens carrying disc 49 is in the position vin which the 0 major lens is in registry with the sight opening, the numerals 0, l, 3 and 2 are disposed within the area dened by the reading opening 96. lSince the minor lenses 4are graded from zero to 3.75 diopters, the calculated value Vobtained by combining the zero major lens with any of the minor lenses will lie between 9 and 3.75 diopters.

VFor the same reason when the major lens of plus l 4 diopters is in registry, the calculated value of any combination'including this lens will lie between 4 and 7.75 diopters. Accordingly, the nuinerals 4, 5, 7 and 6 are positioned on the major lens carrying disc in such `a manner that they are brought into the area'derlned by the reading opening when the major lens of plus 4 diopters is in registry. The position of the numerals 92 associated with each lens of positive refractive power is preferably such that they lie in the upper portion oi the reading opening 96, when the associated maior lens is moved Ainto registry in the sight opening.

When a negative major lens is brought into registry with the sight opening, only negative integers are moved into the area defined by the reading opening 9S and preferably only those negative integers which will enter into the calculated value oi theV combinations which include that major lens and any one of minor lenses. For example, when the major lens or" minus 4 diopters is moved into registry with the line of sight, the numerals 0, l, 2, 3 and 4 of the negative integers are moved into the area deiined by the reading opening 96. In order that .these numerals will cooperate with the apertures 91 which register with the lower portion of Vthe reading .opening 96, these numerals are so positioned that they likewise register in the lower portion of the reading opening'.l It will be noticed that the negative numerals 92 on the major lens carrying disc (those shown in broken or dotted lines) are arranged in rows of five each, whereas the positive numerals are arranged in rows of four. The reason for this is that when one of the negative major lenses is combined with the various minor lenses provided in the embodiment illustrated, the calculated value of the possible combinations eXtends through a range of five integers, while for positive lenses a range of four integers is suflicent for all of the possible combinations. For example, when the major lens of minus 4 diopters is in registry, the possible combinations attainable, by superposing thereon the minor lenses provided, will have a refractive power lying between minus 0.25 and minus 4 diopters. `Inother words, when the minor lens of plus 3.75 diopters is superposed on the major lens of minus 4 diopters., the calculated value or the algebraic sum of the'powers of the two lenses is minus 6.25 diopters and when the minor lens of 0 diopters is superposed on the major lens of minus 4 diopters the calculated value is minus 4 diopters. Superposing intermediate minor lenses on the major lens of minus 4 diopters will, of course, give combinations of intermediate refractive power. To provide indications for all of the possible negative combinations, thereiore, a range of ve integers must be allotted to the lens of minus 4 diopters and for each of the other negative major lenses illustrated. When the negative major lens of minus 4 diopters is in registry, the calculated values of the combinations attainable will include three values having the integer 0; four values each including the integers l, "2 andfS and one value which includes the integer 4. Stated generally, each negative major lens forms combinations with the minor lenses such that the refractive power of any possible combination can be expressed by one or" ve consecutive integers, the smallest integer entering into three of the combinations and the largest integer entering into only one of the combinations, while the intermediate integers enter into four combinations each. y

From the foregoing explanation, it is believed that.V the reason for positioning apertures 91w, Slm, 91g and 91a in the manner shown in Fig. li) will be understood. The aperture 9lw is positioned to reveal the highest integer in each of the rows oi negative numerals. Since this integer can enter into only one combination of lenses for any particular setting of the major lens carrying disc irrespective of how the minor lens carrying dise may be moved, this integer should be revealed only once by the minor lens carrying disc. For this reason, the aperture Qlw is segregated and is the lonly aperture which will reveal the innermost numeral in the negative rows of numerals.

The apertures 91x, 91gI and 91e are so disposed that they will reveal the lowest integer in each of the rows of negative numerals. From an inspection of Fig. l1 it will be seen. that the lowest integer is the outermost one in each of the rows and that the apertures 91x, 91g and 91e are equally remote from the axis of rotation or the lens carrying discs. The three apertures 91x, Qlyvand 91e each reveals the lowest integer in the negative row of numerals which happens tobe in registry with the reading opening 96, thus giving the calculated value of the three possible combinations vSe *into which this integer can enter.

'operative relationship within the housingv 16, the

reading will be indicated, as is shown in Fig. 6, when the zero lenses 48 and 52`are superposed.

Now, whle the major lens carrying 'disc'49 isheld stationary, let us suppose the ininorlens carrying disc is moved counterclockwise to superpose the V,minor lens of 0.25 diopters on the lzero major lens. By this movement, the aperture 91a (Fig. 10) will be moved away from the readingv opening 96 and the aperture 91h will be moved into the reading opening instead. The aperture 91h has marked adjacent it the number so that the indicated reading will now be 0.25. This is the calculated value of the refractive power of superposed lenses and 'is 'equivalent to the algebraic sum of the major lens of Zero power and the minor lens of 0.25 diopters. Moving the minor lens still further in a counterclockwise direction, 0.50 diopters will be indicated and then 0.75 diopters, as the minor lenses of 0.50 diopters and 0.75 diopters are vbrought into registry with the sight opening. Moving the minor lens carrying disc one step further, the aperture 91j will be brought into the reading opening, but this aperture will not reveal the numeral 0 but will reveal the numeral l, thus indicating that the combination of lenses in registry have a combined refractive power equivalent to 1.0 d'iopters. Following the saine proce- 4dure further, the indications 1.25, 1.50 and 1.75. will be given in 'succession and then the minor lens of 2 diopters will be superposed on the zero major lens. At this time, the aperture 91g will reveal the numeral 2, and the other apertures in this group will give the indications 2.25, 2.50 and 2.7'5. On the next step, the aperture 91h will reveal the numeral 3 and the vother apertures in this group will give the indications 3.25, 3.50 and 3.75 in regular succession on the next three steps of the minor lens carrying disc.

If now the major lens carrying disc is held lstationary, as by means of the detent 79 heretofore described, and the minor lens carrying disc is moved still further in a clockwise direction, the aperture 91a will again reveal the numeral "0 and the cycle can be repeated. Thus, all ofthe minor lenses can be superposed in succession on any one of the major lens repeatedly without destroying the accuracy of the indicated readings. The minor lens carrying disc is rotatable in both clockwise and counterclockwise directions and since the indicated reading is dependent only on the relative positions of the discs, the true value will be indicated for all combinations, whether the minor disc be rotated counterclockwise to increase the refractive power or clockwise to decrease the refractive power.

When the detent 79 is disengaged from the adj acent notch 78, the major lens carrying disc will be moved one step at the end of the series of minor lenses. Thus, when the value 3.75 is indicated and the minor lens carrying disc is moved counterclockwise lone step further, the zero minor lens is brought in registry with the sight opening and simultaneously therewith, the major lens of plus 4 diopters is brought in registry. When the major lens carrying disc is moved one Step in this inanner, the row of positive integers 4576 is' brought into registry with the sightbpening 96, so that the aperture 91u now reveals the numeral e rather than the numeral 0, Upon continued rotation of the minor lens carrying disc, the indications 4.25, 4.50 and so on to f7.75 willb'e 4given as the minor lens are supeposed in succession upon the major lens or plus a diopters. When anyone of the other positive major lenses is in registry with the line oi sight, the operation of the calculating means will be similar to that just described, all or" the indications vbeing positioned in the upper portion of theV reading opening for those positive values.

As heretofore described, themajor lens carrying disc can be moved while theminor lens vcarrying disc remains' stationary. During this operation, the accuracy oi" the calculatingmeans is not impaired as will be seen fromv an inspection of Figs. l0 and l1. Assuzningthatthe discs are again placed in the Zero position, but instead of turning the minor -lens carrying disc 46, the Inajor lens carrying disc l49 is turned. v.Ii the disc 49 is turned in a counterclockvvise direction one step, the major lens of plus 4 diopters will be aligned in the sight opening and the row of numerals 4576 will be moved intothe position occupied by the row of numerals 01? 2 in ll. The numeral 4 will then register with the aperture 91a, giving a reading of plus 4 diopters which, it will be seen, is the correct ndication. If the minor lens 0150.25 dioptershapp'ened to be in registry during this movement of the major lens carrying disc, the indication would have changed from 0.25 diopters to 4.25 diopters. 3

The numerals 92 ,on the major lens carryingdisc are so disposed that correspondingly placed numerals in successive positive rows diiier from 4each.

ico

ist

other by four in every instance. For this reason,

the indicated value increases by four diopters when a major lens in any combination is replaced by the next stronger major lens, and conversely, the indicated value decreases by four when any maior lens is replaced by the next weaker lens.

This feature gives rise vtoa very important ad- 5.5-'5

and since the highest` minor lens has a lowen numerical value than the smallest negative malens, any combination including a negative maior lens and one of the minor lenses'will have a refractive power or" a negative value. Also, since the algebraic sign of the power of each of the lenses entering into the combinations is different jg from the other. the algebraic sum involves the subtraction oi" the value of thel minor lens from the value of the major lens. The negative numerals 92 (shown in broken lines) on disc 49 and the apertures Sl on disc 46 which cooperate therewith are dennitely positioned on their respective discs to accomplish this calculation automatically in a manner which is similar in general to the manner in which it is done in connection. with the positive major lenses described above.

Referring again to Figs. G, l0 and l1, Ait will vbe seen that when the aperture 91a is placedin the reading opening 95, the aperture Qlw also registers with the reading opening. It was seen a that when the major lens carrying disc was moved in a counterclockwise direction, the rows. of positive numerals were brought into registry' Vthe zero minor lens.

with the aperture 91e or with any one of thef other apertures that might have been positioned.

in the upper portion of the reading opening 96.. The positive major lenses when brought into registry with the line of sight do not move any numerals into coincidence with the aperture 9lw= 'or with any other apert re which happens to bel sight, the negative row of numerals 01234 is:

rnoved simultaneously into the lower portion of' the area defined by the reading opening 96. Il'

the aperture 9lw happens to be in the position. shownV in Fig. 6, the negative numeral 4 will. be revealed in this aperturethus indicating that. the combined refractive power of the superposed. lenses is equivalent to minus 4 diopters. This indication is correct for this setting, since thev major lens of minus 4 diopters is superposed on. It will be noted that no= aperture on disc 46 is equidistant with the aper ture 9110 from the axis of rotation of disc 46,. thus indicating that for no other setting of thel minor lens carrying disc 46 will the innermostnumeral be revealed in each row of negativenumerals 92. been explained above, that is, there is only one possible lens combination which will include the: highest negative integer in each row.

The lowest negative integer in each row will.

venter into three possible combinations and for this.

reason the three apertures 91x, 9ly and 91e areall equdistant from the axis and are angularly spaced to reveal the lowest numeral for threesuccessive settings of the minor lens carrying disc 46. When, for example, the minor lens; carrying disc 46 is turned one step in a clock wise direction from the position shown in Fig.. l0, the minorY lens of 3.75 diopters Will replace the zero minor lens (aperture 48). Siniultane ously, the aperture 91:1: will be moved into registry with the lower portion of the reading opening 96 and the negative numeral 0 will be revealed in the aperture 91x, if the major lens of minus 4 diopters is in registry with the sight opening.` The indicated reading, therefore, will be minus 0.25 diopters, which is the algebraic Vsum of the .major lens of minus 4 diopters and the minor lens of plus 3.75 diopterswhich are superposed under this condition. When the minor lenses of 3.50 and 3.25 diopters are superposed on the major lens of minus 4 diopters, the apertures 91g vand 91e will be moved into the reading opening to give the indications minus 0.50 and 0.75, respectively. Turning the minor lens carrying disc still further in the saine direction, the series of apertures beginning with aperture 917e will re- Yveal the negative numeral 1 and will give the negative indications 1, 1.25, 1.50 and 1.75, respectively, as the minor lenses of 3, 2.75, 2.50 and 2.25 diopters are superposed on the major lens of minus 4 diopters. As the minor lens carrying disc is turned still further, the negative indications increase numerically until the aero minor lens 48 is superposed on the major lens of minus 4 diopters to give a reading of minus 4 diopters. On the next clockwise step of the minor lens carrying disc, the minor lens of 3.75 diopters is brought into the sight ture 91x will the The reason for this condition hasy rollaego opening and simultaneously therewith the intermittent drive mechanism between the discs `causes the major lens of minus S diopters to rejplace the lens of minus 4 diopters. The aperreveal the negative numeral 4 :and the indication given will be -minus 4.25 diopters, which, it will oe seen, is the correct 'indication for this setting. Further l,clockwise rotation of the minor lens carrying disc 45""will cause the indicated values to increaseV numericalily to minus 8 diopters in a regular sequence, hav- .ing increinets of rninus 0.25 diopters, in accord- ;ance with the successive settings of the minor Ilens carrying disc relative to the major lens carrying dic.

An auxiliary reading opening 98 can be provided in the lens housing' and the ina-jor lens carrying disc 49 has marked thereon a plurality Aof numerals 99 corresponding to the refractive ipower of the various rnajor lenses. Each Vof the inurnerals 99 isso positioned that when one oi the :major lenses is in registry with the sight openzing, the numeral 99' corresponding to that lens :is in registry with the reading opening 99. By .glancing at the reading opening 98, therefore, the operator is kept informed of the particular :major lens which is in registry with the sight :opening at all tirnes. This feature is helpful A'when the operator desires to approach a particular setting increments of 4 diopters by turning 'the major lensv carrying disc. After the closest irnajor lens has been placed in registry with the :sight opening, finer adjustments can be made 'by superposing thereon the various minor lenses 4until the exact combination desired is obtained. The reading opening 98 can bear appropriate legends, as is shown in Fig. 6, such as the words lbasic lens and to clear.

As illustrated in Fig. 8 the airis about which 'the cylindrical lens carrying disc 33 is rotatable (indicated at 93) is displaced from the axis of `rotation ot ther spherical lens carrying discs 46 .and 49 (indicated at 94). Each of the cylindrical 'lenses 34 on the disc A33 can be brought into registry in the line of sight, however, by turning the ydisc S3 so that the desired'lens occupies the position shown occupied in Fig. 8V bythe aperture 195, which represents thecylindrical lens of zero jpower. From an inspection of Fig. 8 it will be .seen that the reading openings 96 and 98 cooper- :ate with those portions of the spherical lens carrying discs 45 and 49 which project beyond the periphery of the cylindrical lens carrying disc 33. By this construction, the cylindrical lens carrying disc can be made as large as desired without interfering with the indicating means on the spherical lens carrying discs and at the saine time, means is provided for superposing any one of the cylindrical lenses on the spherical lenses in the line of sight.

In Figs. 17a to 19d, several indicated readings are shown as they appear on the device. Thus, in Fig. 17u the reading -23.75 is indicated in the reading opening 95 and the negative numeral 24 is indicated in the reading opening 98 to reveal to the operator that the major lens of minus 24 diopters is in registry and that the minor lens of 0.25 diopters is superposed thereon, giving a conn bined refractive power of minus 23.75 diopters. Fig. 17h shows the indication which is given when the major lens of minus diopters and the zero minor lens are superposei. Fig. l'lc illustrates the indication which is given when the major lens of minus 28 diopters is combined with the minor lens of 3.75 diopters.

'70 formed along the under side of bar 102. An a'c of the ciliary muscles of the eye.

Figs. 18a to 18d give four successive indications as the minor lens carrying disc is turned in a clockwise direction from the setting in which the major lens of minus 28 diopters is superposed on the zero minor lens. On the iirst step, the minor lens of 3.75 diopters replaces the zero minor lens and simultaneously the intermittent drive mechanism between the discs causes the major lens of plus 16 diopters to replace the major lens oi minus 28 diopters. The indicated reading then appears as it is shown in Fig. 18D, the numeral 16 showing in the reading opening 98 and the calculated value for the combination, that is, 19.75 diopters, showing in the reading opening 96. On the two next successive steps, the minor lenses brought into registry decrease in power in increments of 0.25 diopters to give the calculated values 19.50 and 19.25 diopters, respectively, while the major lens indication of 16 diopters remains unchanged. y

Fig. 18e shows how the indications appear when the major lens of plus 12 diopters is caused to replace the major lens of plus 16 diopters in the setting indicated in Fig. 18d. It will be noted that the numeral 16 of Fig. 18d has been replaced by the numeral 12 in Fig. 18e and that the calculated value has changed from 19.25 diopters to 15.25 diopters to correspond with the new combination of lenses.

In Fig. 18), the major lens carrying disc has been moved from the position indicated in Fig. 18e to the position in which the major lens of 28 diopters is in registry with the sight opening. The indication of the calculated value of the combination of lenses is changed accordingly from plus 15.25 diopters to 24.75 diopters.

Figs. 19a to 19d show the indications as they appear when the minor lens carrying disc remains stationary with the minorlens of 3.75 diopters in registry, while the major lens carrying disc is moved to superpose thereon the lenses of zero, plus 4, minus 4 and minus 8 diopters, respectively.

From the foregoing, it will be seen that theV indicating means is dependent only upon the relative setting of the major and minor lens carrying discs and that the true calculated value of the combination of lenses in registry is given at all times, irrespective of whether the major lens carrying disc is moved separately or whether the minor lens carrying disc is moved to the exclusion of the major lens carrying disc or whetherV both lens carrying discs are moved simultaneously. The calculating means, therefore, is entirely independent of any mechanism which may get out of j order and for this reason is literally infallible in its operation. l

In Fig. 2 I have shown a device known in the art Vas a punctometer or ciliary-dynemometer, which is employed for testing the accommodation In the form shown, a lens holder 101 is mounted in a rela-V tively rlxed position on a bar 102and an objective 103 which is adapted to be viewed through the lens holder 101 is mounted on a bracket 104. The

1 bracket 104 is secured to a member 106 which is slidable longitudinally along the bar 102. For adjusting the distance between the lens inholder 101 and the objective 103 a gear 107 is journalled on the member 106 which meshes with a rack 108 tuating knob 109 carrying a pinion 111 which meshes with the gear 107 can be employed for effecting movement ofthe objective 103 relative to the bar V102. The portion of the bar 102 on which the objective mountingi's. slidablezispreferably rectangular in cross section while one end 112 of the bar 102 can be made circular in cross section to t within a tubular socket 113 (Fig. 1) on the optometer. A groove or channel 114 can be cut adjacent the opening 113, the sides of which are adapted to snugly embrace the corresponding sides of the rectangular portion of the bar 102 when the end 112 of the punctometer is fitted within the opening 113. The parts are so designed that when the punctometer is positioned in this manner, the lens in holder 101 and the objective 103 Vare accurately disposed in the line of sight of the optometer. Alfter the punctometerV has been mounted in the line of sight, the operator moves therobjective 103 along lthe bar 102 until the patient can recognize characters of a certain size marked on the objective. The positiono the objective is then noted by the operator and thereafter the movement of the objective 103 is continued in the same direction until the characters again Vfade away. The rangev within which thecharacters are visible indicates to the operator the accommodation of theciliary muscles of the` patients eye which is being tested. The accommodation of the ciliaryvmuscles has been found to bear a deniterelationship toa persons age, and the normality or abnormality of `the ciliary muscles can be determined by the` presence or absence of this relationship. Ac` cordingly, the bar 162 can be graduated in suitable units to indicate the accommodation of the ciliary muscles and can also be graduated in age units so that a comparison can be made. If def sired, a chart 116 can also be marked on the punctometer which givesthe normal accommodation of the ciliary muscles for various ages. By providing a mounting on the optometer for the punctometer whereby the ciliary muscles can be tested after de'fectsin thev patients eyesight have been corrected by the setting of the lenses 1 in the optometer, it is apparent that a more accurate and morev reliable test of the ciliary muscles isobtained. Also, this arrangement affords an opportunity to providecorrections in the lens prescription to oiset the abnormalityY of 1 the ciliary muscles, when thev abnormality is of such a nature that it is subject to correction. These advantages are not present when the punctometer has -a mounting which is separate and distinct `from the optometer, since in that case 1 it isnecessary totest the ciliary muscles while the patients Veyesight remains uncorrected in other respects, or else the patients eyes must be fitted with lenses prepared under the presumption that the lciliary muscles are normal. In thev latter instance, if lacorrec'ztable abnormality appears', it is sometimes V necessary to preparenan entirely new set' of lenses in order 'to correct the' patients eyesight for abnormal accommodation. It will be'seen that the punctometer mounting which I have provided enables ready detachment of the punctometerV from the remainder of the instrument, whereby'the'punctometer can be removed, if desired, while theother tests are being mada.k In Fig. 4 a device 117, known in the art as a Stevens `phorometer is shown and the improved manner in which I prefer to mount thisphoroxm' eter on the-optometer is also illustrated. Briefly, the-Stevensfphorometer comprises a pair of pris-A matic lenses. 118, one for each eye,'and suitable; means is provided for rotating the lenses toni-@ ford an arrangement for testingthe extra ocular muscles of the-eye. In the form shown,each ofV Y thelensesll is mounted inaring gear 119;(Fig., 150 n 1*) and an idler pinion 121 meshes with both of the gears 119, whereby both Ylenses 118 are caused to rotate in unison whenever rotation is imparted to one of the lenses.

'I'he improved mounting which I have provided for the phorometer comprises a bracket 122 which is'hinged or pivoted as at 123 to a relatively stationary member 124 which is held in place by friction pins 126 extending into complementary sockets 127 inthe optometer frame. When the bracket 122 is in the position shown in Figs. 1 and 4, the lenses 118 are disposed in the line of sight of the respective lenses in the optometer. A shoulder 128 can be formed on the member 124 which serves as a limiting stop for the bracket 122'and preferably the shoulder 128 is so designed that when the bracket 122 bears against the same, as shown in Fig. 4,V the lenses 118 are in proper operative position. The hinge connection 123 enables the phorometer to be swung upwardly in the manner indicated by the arc shown in Fig. 4 to a non-interfering position when it is not in use. This mounting permits the phorometer to be carried by the optometer at all times so that it is available at any instant and also, the lenses 118 are not exposed to breakage or other accidental damage to the extent that they would be if the phorometer were entirely detached from the optometer. Y

In Fig. 4 a head rest 131 is shown against which the patients forehead may be placed while vhis eyes are being tested.` A suitable adjusting screw 132 enables adjustment of the head rest in the most convenient position.

In Fig. 5 a convenient mounting is illustrated for a number of special lenses. Each of these special lenses is carried by an arm 133 which is mounted for rocking movement about the rod 134 in which the tubular socket 113 for the punc tometer'is formed. The mounting of the arms 133 is such that any one of the special lenses or any combination thereof can be rocked into the line of sight or can be rocked to a non-interfering position outside of the line of sight, as may be desired.

summarizing briefly the operation and functions of the various parts of the instrument, when the operator desires to bring a particular cylindrical lens into registry with the sight opening 27, the knob 38 (Fig. 6) is turned and the value of the various cylindrical lenses 34 is indicated in the reading opening 43, as each lens is brought into registering position. To turn the cylindrical lens in registry about its own axis, the knob 39 is turned and the pointer 42 indicates the angular adjustment ofthe lens on the scale 41. To bring a particular one of the major spherical lenses into registry, the knob 69 (Figs. V14 and 15) is turned, Ythe value of the major lens in registry being indicated at the reading openingrilv (Fig. 6). lAny oneJof 'the minor spherical lenses can be superposed onthe major spherical lens in rege istry by turning the disc 46.by engaging the projecting portion of the periphery thereof, shown in Fig.v 6. The calculated value oi the combined refractive powers of the spherical lenses inreg-v istry isV given at the reading opening 96. The Stevens phorometer 117 can be swung into operative position in the line of sight at any time merely Vby Arocking the same aboutitsvhinge 123. Any-one of the special lens mountings shown in Fig/5, can likewise be brought into the line of l sight whenever desired. The punctometer shown in Fig. 2 can be placed in operative position merely'by inserting the end 112 thereof into one of the sockets 113 provided for this purpose.

While I have shown and described a preferred embodiment of my ophthalmological instrument, it is to be understood that I do not wish to be limited thereto, since the invention as defined in the appended claims can be embodied in a plurality of other forms.

I claim: Y

1. In a device of the character described, al pair of superposed relatively rotatable lens carrying discs, one of said discs being provided with a plurality of apertures and having numeral markings adjacent certain ones ofy said apertures, the other of said discs having numeral markings cooperating with the numeral markings of the rst disc and visible through the apertures therein, -the numerals on both discs when read together as a single number indicating the calculated value of an optical characteristic of the combination of lenses derived from the relative setting of said discs.

2. In a device of the character described, a pair of superposed relatively rotatable lens carrying discs, one of said discs being provided with a plurality of apertures and having decimal numeral markings adjacent certain ones of said apertures, the other of said discs having integral numeral markings cooperating with the decimal markings of the iirst disc and visible through the apertures therein, `the integral and decimal numerals on said discs when read together as a single num-v ber indicating .the calculated value of an optical characteristic of the combination of lenses derived from the relative setting of said discs.

3. In a device of the character described, a pair of superposed relatively rotatable lens carrying discs, one of said discs being provided with a plu#y rality of apertures'and having decimal numeral markings adjacent certain ones of said apertures, the other of said discs having integralnumeral markings cooperating with the numeral markings of the rst disc and visible through the apertures therein, certain ones of the integral numerals having a distinguishing characteristic to indicate that such numerals are negative While the remaining integral numerals are positive, the integral and decimal numerals on said discs when readtogether as a single number indicating the calculated value oi an optical characteristic of the combination of lenses derived from the relative setting of said discs, and the nature of the integral numerals entering into the indication indicating the algebraic sign of the calculated value.

4. In a deviceof the character described, a pair of superposed relatively rotatable lens carrying discs, one of`- said discs being provided with a plurality of apertures and having decimal numer al markings adjacent certain onesof said aper4 tures, the other of said discs having integral numeral markings cooperating with the numeral markings of the first disc and visible through the apertures therein, a housing having a reading opening therein,lcertain ones of said apertures registering with one portion of the reading opening and the other'apertures registering with another portion of the reading opening, the integral and Y of superposed relatively rotatable lens carrying discs arranged concentrically, one of said discs being provided with a plurality of apertures spaced at different radii from the center of the disc and the outer face of said one disc having decimal numeral markings adjacent certain ones of said apertures, one face of the other of said discs having integral numeral markings cooperating with the decimal markings of the first disc and visible thru the apertures therein, detent means for retaining said disc in any one of a plurality of predetermined angular relative positions, and a relatively stationary face plate having an aperture for viewing a limited area of the outer face of the rst disc, the integral numerals when viewed thru the opening in the face plate and thru the exposed opening in the first disc, and when read together with the decimal numerals viewed thru the opening in the face plate, giving the calculated value or the optometric characteristics of the combination of lenses derived from the setting of the discs.

6. In a device of the character described, a pair of superposed relatively rotatable lens carrying discs arranged concentrically, one of said discs being provided with a plurality of apertures spaced at dii-Ierent radii from the center of the disc and the outer face of the same disc having decimal numeral markings adjacent certain ones of said apertures, the number of said apertures being at least twice the number of lenses carried by said disc, one face of the other of said discs having integral numeral markings cooperating with the decimal markings of the rst disc and visible thru the apertures therein, detent means for retaining said discs in any one of a plurality of predetermined angular settings, and a relatively stationary face plate having an aperture for viewing a limited area of the outer face of the rst 1 disc, said'openings being of suicient size that a second movable member carrying a series oi?v major lenses, intermittent drive mechanism ins terconnecting said movable members for moving lenses can be moved while the minor lens carry-- ing member remains stationary.

8. In a device of the character described, a rotatable member carrying a series of minor lenses, a second rotatable member carrying a series of major lenses, intermittent drive mechanism interconnecting said movable members for moving said major lens carrying member one Step after the last lens of the series of minor lenses is reached, whereby the entire series of minor lenses can be superposed in succession on successive major lenses in turn, a max-torque releasable clutch interposed in said drive mechanism, and releasable locking means for holding said major lens carrying member stationary, whereby the minor lens carrying member can be rotated repeatedly WithoutY causing rotation of the major lens carrying member.

9. In a device of the character described, a rotatable member carrying a series of minor lenses, a second rotatable member carrying a selens carrying member, a second rotatable part having an intermittent drive connection of the Geneva type with the minor lens carrying memberclutch mechanism forming a max-torque releasable drive connection between said parts, said clutch mechanism being automatically engageable only in spaced angular positions between said parts corresponding to the extent of angular movement of the rst-mentioned part to cause a successive major lens to be brought into registry with the sight opening, said clutch mechanism when engaged enabling intermittent rotation of the major lens carrying member by rotation of the minor lens carrying member, and

manually operable means for applying rotational p movements to the first mentioned part whereby the major lens carrying member can be rotated to bring successive major lenses into registry with said sight opening without causing rotation of the minor lens carrying member. Y Y

CLYDE L. HUNSICKER.

nsol 

